Inertia-operated panning device



Sept. 6, 1949. T. w. CHEW INERTIA-OPERATED PANNING DEVICE 4 Shee'ts-Sheet l Filed Feb. 15, 1946 Sept. 6, 1949. T. w. CHEW 2,481,083

INERTIA-bPERATED PANNING DEVICE Filed Feb. 15, 1946 4 Sheets-Sheet 2 TIOOI ILi'OIZ WC/zeuz Se t 6, 1949. T, W, CHEW 2,481,083

INERTIA-OPERATED PANNING DEVICE Filed Feb. 15, 1946 4 Sheets-Sheet 3 T/wndo/L WC/aeuz WY G M T. W. CHEW Sept. 6, 1949.

INERTIA-OPERATED PANNING DEVICE 4 Shee'ts'-Sheet 4 Filed Feb. 15, .1946

Patented Sept. 6,1949

UNITED STATES PATENT OFFICE INERTIA-OPERATED PANNIN G DEVICE Thornton W. Chew, Washington, D. 0. Application February 15, 1946, Serial No. 647,887

8 Claims.

This invention relates to cameras and more particularly to a novel optical system therefor which permits the rapid and efiicientutilization of a plurality of lenses having different focal lengths.

In the use of motion picture and television cameras it has heretofore been proposed to employ two or more diiferent' types of lenses and for the most part such types have been of the short focal length or wide angle of view and the long focal length or narrow angle of view. In prior installations and especially in connection with motion picture cameras, the lenses of different focal lengths have been associated with the camera by means of the well known turret lens mount which enables a desired lens to be shifted from an inoperative position to a position where its optical path-is aligned with .the photo-sensitive surface. Such a construction, however, is not completely satisfactory for television or motion picture cameras where time is an important factor, it being appreciated that a considerable period of time is required to shift the desired lens into operative position. In addition to this objection it will be understood that in shifting the turret, a relatively large mass must be moved and moreover, unless special and expensive auxiliary equipment is employed, an unpleasant visual effect of swimming images will be experienced during the time the lenses are being shifted.

It is accordingly one of the objects of the present invention to provide a novel lens system for a television or motion picture camera which will be so constituted as to avoid the difilculties heretofore encountered in the systems of the prior art.

Another object of the invention is to provide a relatively simple and light-weight lens system wherein the change in lenses may be quickly accomplished without the unpleasant visual efiect of swimming images on the mosaic or film during the time the lenses are being shifted.

Still another object includes a novel arrangement for efiecting the change from one lens to another, in a motion picture or television camera, which avoids the use of heavy and bulky mount ings and results in a minimum loss of visual information during the change.

Another object is to provide a novel shutter arrangement which is automatically operated to obstruct the passage of light rays through the camera in the event that the latter is panned too rapidly. l i

A further object residesin the provision of a novel. lens system of the foregoing type which is so arranged as'to avoid thenecessity of shifting the lenses, the construction being such that the optical paths from the lenses are shifted by a relatively simple and inexpensive mechanism.

A still further object is to provide a novel camera and optical system of the foregoing characterwhich will be of light-Weight construction, of economical cost, and highly eificient in shifting the field of view'from one lens to another without the movement of heavy masses and without the visual effect .of swimming images.

Other objects and novel features of the invention will appear more fully hereinafter from the following detailed description when taken in connection with the accompanying drawings illustrating several embodiments of the invention. It will be expressly understood however, that the drawings are employed for purposes of illustration only and are not designed as a definition of the limits of the invention, reference being had for this purpose to the appended claims.

Referring to the drawings, wherein similar reference characters refer to similar parts throughout the several views:

Fig. 1 is a diagrammatic view, partly in section, illustrating a television camera and lens system 1incorporating the principles of the present invenion;

Fig. 2 is a diagrammatic'view similar to Fig. 1 but illustrating a modification of the invention wherein one of the plurality of mirrors is shiftable for changing the optical path through the lenses, the parts being adjusted to use the narrow angle ens;

Fig. 3'is a view similar to Fig. 2 but showing the position of the parts when employing the wide angle lens;

Fig. 4 is a diagrammatic view of still another form of the invention wherein the mirrors are comprised of relatively movable sections;

Fig. 5 is a diagrammatic view of the mechanism of Fig. 4 but illustrating a different type of ac tuating mechanism for the mirror sections;

Fig. 6 is a detail view .of an inertia operated shutter device which may be employed in connection with any of the previous optical systems;

Fig. 7 is an enlarged side view of the shutter which is employed in Figs. 2 and 3;

Fig. 8 is a detail view of a modified form of inertia operated shutter device;

Fig. 9 is a detail view of a further modification of the inertia operated shutter device;

Fig. 10 is adiagrammatic view of still another form of inertia operated device; and

Fig. 11 is a diagrammatic View of a modified form of the device of Fig. 10. i

3 Referring more particularly to Fig. 1, the present invention is illustrated therein as being associated with a television camera l0, having a casing I2 adapted to house a scanning tube i i, the latter being provided with the usual photo-sensitive mosaic, not shown. Lenses l6 and H! which may respectively be of the narrow angle, long focal length and wide angle, short focal length types, both ,of whichare capable of focus adjustment, aremounted inthe front walhofthe casing l2, in any suitable manner, and by a novel construction including mirrors ter 23, are adapted to selectiyely transn it light rays from an object 24 to the mosaic of tube It;

In order to provide the above-mentionedselective operation of the lenses l6 and l8, mirror 20 is fixedly mounted within the camera, inanysuitable manner, and is provided with a reflecting surface on the side facing the lens [6. Mirror 22 on theother hand, is of aspecialtype formed by a clear glass plate having. a plurality of spaced 'apart silvered islands thereon, the arrangement being such that the total'areas. of the silvered and clear glass ar'esubstantially equal so that the mirror iscapabIe f transmitting images L with approximately thesame efficiency as its capability of reflecting; images. While the aforementioned ratios ofmeflecting and transmitting areas will usually be found to be the most desirable, it will be understood' that other ratiosmay be used, depending upon the particular effects to be obtained.

For the purpose of selecting the lens .to be used at the desired moment, the shutter 23, which may be shifted up or down by any device 26 which is preferably remotely controlled, is provided withallight intercepting portion 28 and a light transmittingportionfill, these parts being so dimensionedanclpositioned with respect to the lenses [G and l8; that during moyement of the shutter, the transrnission o f one 1ens image will increase at substantially thesame ratetransmission as the other lensfim'age is decreased.

Thusthe arrangementsecures a lap-dissolve effect in. shifting from one position .to the other.

In operation and with the parts arrangedin the position shown, themirror 22..wil1 transmit the image from thewide angle lens [8 to the tube. [4 through the clear glass portion thereof, the image from the narrow angle lens l6 being kedb h hutt rnortion 2 i isnow desired to utilize the lens [6," it is only necessary to. shift the shutter 23,downwardly whereuponthe ns i s n-i l ef maee. om ens E i in.- crease while the transmission of theimage from lens ,I 8 will decrease at substantiallythesame rate untilapoint is reached when light transmission from lens I8 is blocked by the shutterportion 28. At such time, complete transmission of the, image from lens IS tothe. tube l l will be, effected by means of mirror and the reflecting portions of mirror 22. Thus theshiftiromonelens to another is accomplishediin asimple and efiicient manner which requires only the movernentof the.

shutter 23 which may be very light in weight and fast in its action.v

In the form of the invention illustrated in Figs. 2 and 3, the seleetionof thedesired lens is efted. y me ha ica y i an ine the pos ti n o one of the mirrors of theoptical system, Morev w a l ecial. mi ror 22 f,. ie-. 1 a b replaced by a mirror 32 of the usual typewhich is provided with a reflecting surface opposed to the reflecting surfaceof the mirror 20. The mirror 32 is moreover suitably pivoted at 34 to a sta- 20 and 22, and a shut and is suitable actuating tionary part and is associated with a novel shutter and mirror shifting mechanism 36 so that the images from the lenses l6 and I8 may be shifted as clearly shown in Figs. 2 and 3.

In order to accomplish the above-mentioned shift in image transmission, the mechanism 36 comprises a shutter 38, see Fig. '7, which is pivotally mounted upon a stationary pin 40 and normally urged to-a.position,in,front of,the;lens l6, to engage stops, 39,and 4i, asbymeans ofa spring 42. A rod 43', having an enlarged end 44 passes freely through an opening 48 in the end of the shutter andwhenmoved downwardly by the actuating device 26'; serves to positively move the g shutterto thedotted line position shown in Fig. 7

in order to allow the image from lens 16 to be transmitted-t0-the-mirror 20. Under these conditions, transmission of the image from mirror 20 to mirror 32 and thence to the tube l4 will be effectedas illustrated in Fig. 2. In the event it. is desired to select the wide angle lens I8; it is only necessary to cause the rod 43 to be moved up- Wardly whereuponthe upper end thereof slips freely through the opening 46 in the end of the shutter. 38, and allows theshutter to block the transmission of the image. from the lens I6 through movementthereofin response to the action of the sprin 42.

One of the features ofthe present. invention resides in the elimination of all visualeifects resulting from swimming images during the shift from one lens to the other. A novel arrangement is hence employed which insures that'the light from the lens IE will be intercepted by the shutter 38 during the change in position of ithe mirror. To this end, the rod 43, is provided with a lug or abutment which is adapted .to engage and move the free end of a lever 48; pivotally mounted intermediate itsends upon a stationary part 50', whenever the rod 43 is moved upwardly. The opposite of lever 48 is pivotally connected to the mirror 32 through a link 52, and adjacent the pivotal mounting 50, the lever 48 is .iniiuenced by a spring 54 which normally urges the parts including the mirror 32 to the position shown .in Fig. 2. Itwill be -understood from this construction that during upward movement of the rod43; the lug 41' will engage the end of lever 48 and positively move the mirror 32 to the position shown in Fig. 3 onlyafter sufiicient movement of the rod, 43 has taken place as to allowthe sl'u tter 38 to obstruct the lighttransmitted through the lens 16. This isdue to the novel construction employed, includ-,. ing the slip connection, between rod '43- and shutter 38 as well asthe spacingof the lug 4'Lbelow the free endof lever 48, which allowscomplete obstruction of the lens l6,before movement of the mirror 32and clearing oftheoptical path from lens I8, as shown in Fig. 3.,

It will be understood ,thatif it is desired to select the lens l5, the novel constructionprovided I by the present invention insures, that the, mirror.

ming of images, duringthe. transition from one.

lens to, the other is completely avoided by the novel shutter and ,pivoted ,mirror construction of this form of the invention.

A further form of the inventionis shown in Fig. 4 which differs from the modification of Figs. 2

and 3 in that the mirrors 20 and 32 are constituted by relatively movable sections 56, 58' and 60, 62;

the arrangement being such that when the sections are aligned, as shown in full lines in Fig. 4, the image from lens I6 will be transmitted to the screen or mosaic 64 by reflection from mirrors 26 and 32. On the other hand, when the sections of the mirrors are separted, as indicated in dotted lines, the optical path from the wide angle lens I 8 will be undisturbed, while that from lens I6 will be intercepted by a shutter 51.

Novel means are provided by the present invention for operating the sections of the mirrors 26 and 32 in the above described manner and preferably such means is coordinated with the operation of a shutter 51, herein shown as of the bellows type, so that the latter will intercept the image from lens I6 as reflected from mirror 26 before the mirror sections are opened, this construction avoiding the possibility of swimming images as the system is shifted from lens I6 to lens I8. As shown such means includes the rod 43 and lug 41 which is adapted to engage the free end of a pivoted lever 64 when the rod 43 is moved upwardly by the remotely controlled actuating mechanism 26. The oposite end of the lever 64 is pivotally connected to a reciprocating bar or lever 66 which is adapted to actuate a pair of arms 68 and 16, the latter being respectively connected with the mirror sections 58 and 62 and adapted to actuate the associated mirror sections 56 and 66 through suitable sector gear transmissions 12 and 14. Normally, a spring 16 seeks to maintain the parts in the full line position illustrated, whereupon lens I6 is in use and the image from lens I8 may be observed upon the ground glass screen 18 after reflection from the two-sided mirror 32 and mirror 86. Under these conditions, the rod 43 through a cable 59 secured to a collar 6| carried by the rod, moves shutter 51 away from engagement with its stop 63 and against the action of the springs 65 associated therewith, to clear the optical path from the narrow angle lens I6. Upon upward movement of the rod 43, however, the shutter 51 first moves to obstruct the light transmission from the lens I6 as reflected from the mirror 26, and thereafter the lug 41 engages and 45 moves the lever 64 to open the mirror sections 56, 58 and 66, 62, thereby permitting the image from the wide angle lens I8 to be transmitted to the mosaic 64 of the tube I4. Upon opening of the mirror sections 56, 58, the image from lens I6 may be observed upon ground glass screen 61.

The form of the invention illustrated in Fig. 5 is substantially the same as that shown in Fig. 4, except that a modified form of actuating device is employed for moving the shutter 51 and the mirror sections 56, 58 and 66, 62. As shown, the actuating device comprises a bar 82, adapted to be moved upwardly or downwardly by the actuating device 26 for the purpose of rotating gears 84 and 86through toothed sections 88, 96 formed on the 60 bar. The gears 84 and 86 are respectively adapted to operate the sector gear transmissions 12 and 14 in order to move the mirror sections 56, 58 and 66, 62 toward and away from an aligned position.

When the mirror sections are closed they are 65 adapted to contact suitable stops 92 and 94 and when in this position, the lens I6 is efiective. With the mirrors opened, as illustrated, lens I8 projects the image directly upon the mosaic of the tube I4.

In order to insure that the sections of the mirrors 26 and 32 are closed before the shutter 51 is opened, a lug or abutment 95 is secured to the bar 82 to contact and actuate the arm 96 secured to the shutter 51 after closure of the mirror sections.

Preferably, when the lug 95 contacts the arm 96, vided however, in order to adjust the the toothed sections 88 and 96 on the bar 82 will clear the gears 84 and 86 and hence any additional movement of the bar 82 will serve to open the shutter 51 against the tension of springs 65 without operating the sections of the mirrors 26 and 32 which remain in closed or aligned position. If desired, a stationary stop 91 may be arranged to engage a lug 98 on the bar 82 in order to arrest downward movement of the latter after the shutter 51 has attained its full open position.

It will be understood that if it is desired to intercept image transmission from the narrow angle lens I6 and permit operation of the wide angle lens I8, it is only necessary to cause upward move ment of the bar 82 in order to first allow the springs 65 associated with the shutter 51 to move it to the full line position illustrated. Thereafter, continued upward movement of the bar 82 will bring the toothed portions 88 and 96 into engagement with the respective gears 84 and 86 whereupon the sections of the mirrors are opened to the positions shown through operation of the sector gear transmissions 12 and 14.

It is well known that in the use of motion picture or television cameras, rapid panning movement of the camera produces highly objectionable visual effects, particularly in connection with telephoto lenses. The shutter construction illustrated in Fig. 6 provides a novel, automatically operating device for avoiding the objectionable effects due to rapid panning action. As shown, such device comprises an inertia shutter I66 having an arcuate shutter element I6I and an integrally formed arm I62, the shutter being pivotally mounted at I63 to a fixed part of the camera and normaly restrained to occupy the full line position shown, as by means of oppositely acting springs I68 and I65, having opposite ends secured to the upper portion of the arm I62 and to adjustable, relatively stationary anchors I66 and I61. Shutter element I6I is provided with a centrally arranged opening I68 and the entire device is adapted to be mounted just to the rear of the desired lens, see Figs. 4, 5 and 6, with the opening I68 aligned with the lens. In operation, it will be readily understood that as long as the rate of panning movement of the camera does not change to a value above a predetermined rate, as governed by the tension of the springs I64 and I65, and the weight of the shutter element I6I the opening I68 will permit the image from the lens to be transmitted to the photo-sensitive surface of the camera. In other words, the image will be transmited so long as there is no change in the rate of 65 panning movement of the camera, such as accelerated or decelerated movements. As soon, however, as the rate of panning changes and exceeds the predetermined rate, to cause a changing rate of movement, the inertia of the element I6I will be such as to swing the latter one way or the other about the pivot I63 into engagement with stops I 69 or II6 to blank out the scene being taken at the moment. It will be understood that the predetermined rate referred to may be readily varied by adjusting the initial tension of the springs I64 and I65 and by using shutter elements of different weights, in order to obtain any desired method of operation. It will also be understood that while the inertia shutter I66 has been illustrated in connection with lenses I6 of Figs. 5 and 6, a similar shutter may also be used with the lenses I8 of these figures.

In Fig. 8, the element I6I is mounted as in Fig. 6, adjusting screws 264 and 265 being protension of the respectivesprings I04 and I05 to obtain the predetermined rate desired A further modification of the inertia operated shutter is illustrated in Fig. 9 wherein flat ribbon springs I32 and I33 and the. element IOI are positioned below the pivot or suspension point I03. The tension of the springs may be adjusted by means of screws I34 associated with the ends of the springs. A further feature resides in the provision of an adjustable weight I35 which may be positioned along the arm I02 and maintained in adjusted position by means of a set screw I36. It will be readily understood that by this arrangement the distribution of inertia force between the suspension point and the restraining springs may be varied in order to secure the desired adjustment.

A further modified form of inertia operated shutter is illustrated in Fig. 10 which, instead of blocking the transmission of optical image as in Figs. 6, 8 and 9- functions to block the transmission of an electrical image when the rate of panning movement of the camera exceeds a predetermined rate. More particularly, in the form illustrated, the arm I02 is arranged to apply a biasing potential to the amplifier I I2 to prevent the transfer of picture Signals from the scanning tube I4 through the amplifier stage whenever the panning rate of the camera changes, as determined by the tension of the springs I04, I05, and the Weight II4 attached to the arm I02. As shown, arm I02 is pivotally mounted at H6 so that a changing rate of panning movement of the camera causes the upper end of the arm to move in one direction or the other with respect to a potentiometer winding I I8, opposite ends of which are connected to the positive terminal of a grid biasing battery I20, and the midpoint I22 of which is connected through a lead I24- withthe negative terminal of the battery, and with the grid I of a tube I2 1 of the amplifier stage which is fed from the tube I4. Cathode I28-is connected through a lead I30 with the arm I02 and through the latter with the upper end thereof which constitutes a contact in engagement with the potentiometer winding.

With the parts in the position shown andwith the output of tube M connected with the input of tube I21, the latter and the successive amplifier stages, not shown, will transmit the electrical images picked up by the television camera, in a well-known manner. However movement ofthe arm I02 to the right or left, over the potentiometer Winding IIB, due to changing rate of panning of the camera, will serve to apply a sufficient biasing voltage to the elements of the tube M2 asto prevent the transmission of picture signals thereby. Thus, transmission of. electrical. images is effectively prevented when the camera is panned at a changing. rate as determined by the tension of springs I04, I05 and the weight H4, it being understood that these parts. are adjusted and selected to yield. the desired effect in the ultimate observation of the scenes. taken.v

The form of the invention illustrated in Fig. 11 is similar to that shown in Fig. 10 except that. a modified form of inertia operated device is employed. As shown, the arm I02. isv provided with an adjustable weight I and flat ribbon springs I32 and I33, the. arrangement. being somewhat similar to that shown in Fig 9; It will. be understood that the tension of the springs. I32 and L33 may be varied by adjusting. the screws I34 and. that the weight I35 may be. secured in any position along the arm I02 by the setscrew I36.

After the desired adjustments are made, the arrangement of Fig. 11 operates in the same mam ner as that of Fig. 10 in order to block the trans mission of an electrical image when the rate of panning movement of the camera changes.

From the foregoing, it will be readily perceived that the present invention provides a relatively simple, light-weight construction whereby one of the plurality of lens may be quickly selected and employed for recording any desired scene. It will be moreover noted, that while several different modifications of the invention have been set forth herein, all of them avoid the possibility of swimming or moving images upon the mosaic or other photo-sensitive surface during the change from one lens to another. In addition to the foregoing, the use of any of the various types of inertia operated shutter devices disclosed herein, completely avoids the undesirable visual effects due to a rapid panning movement of the camera.

This application is a continuation in part of my application Serial No. 597,496 filed June 4, 1945 for Camera.

While the invention has been particularly described in connection with a television camera, it will be understood that the same is equally adaptable to any camera provided with a photosensitive surface on which scenes are to be recorded and wherein a plurality of lenses having different focal lengths are utilized. Moreover, while several embodiments of the inventions have been illustrated and describedherein, it will be understood that the same is not limited to these forms but is capable of a variety of expressions, as will readily appear to those skilled in the art, without departing from the spirit of the invention. Reference will therefore be had to the appended claims for a definition of the limits of the invention.

What is claimed is:

1. The combination with a television camera generating an image signal and having an input. circuit to which said image signal is applied, an output circuit, and an amplifying stage therebetween, of means including circuit connections to render the amplifying stage inoperative for blocking the image signal transmission through said amplifying stage during panning. of the camera at a changing rate of movement, comprising an inertia operated device having a part for controlling said circuit connections during saidchanging rate of movement.

2. The combination with a television camera generating an image signal and. having. an input circuit to which said image signal is applied, an output circuit, and an amplifying stage therebetween, of means for blocking. the image signal transmission through said amplifying stage during panning of the camera at a changing rate of movement, comprising circuit connections forapplying a blocking potential to the control element of the amplifying stage, and means including a pivotally mounted weighted arm having. a part for controlling said circuit connections to apply said blocking potential during said changing rate of movement.

3. The combination with a television camera having an input circuit, an output-circuit. and an amplifying tube therebetween, of means for blocking the image transmission through said-tube during panning movement of the camera ata changing rate, comprising an arm,.means for pivotally mountingsaid arm intermediate the ends thereot, a. weight adjustably mounted on said armbelow said pivot, circuit connections controlled by pivotal movement of said arm in either direction to apply a blocking potential to the control element of said tube to prevent image transmission from said input to said output, and resilient means connected with said arm to normally maintain the latter and said circuit connections in position to render said tube operative during panning of the camera at a constant rate of movement.

4. The combination with a television camera having means to transmit an image from one point to another within said camera, of an inertia operated shutter having a pivoted arm provided with an elongated lower end, said end being provided with an opening normally permitting image transmission and being also provided with solid portions on opposite sides of said opening for blocking image transmission when the arm is moved in either direction about its pivotal mounting, yielding means associated with said arm for normally maintaining the latter in image transmitting position, said shutter moving in response to panning movement of the camera at a changing rate of movement to bring one or the other of said solid portions in position to block image transmission.

5. Apparatus as defined in claim 4 which comprises in addition a weight adjustably mounted on the arm for varying the inertia thereof.

6. Apparatus as defined in claim 5 wherein the weight is adjustably mounted on the arm between the point of connection between the yielding means and the arm, and the upper end of the arm.

'7. The combination with a camera having a lens and a light-sensitive surface, of means for blocking the image transmission from the lens to said surface comprising an inertia operated shutter responsive to panning of the camera at a changing rate of movement, for movement to an image-blocking position, said shutter comprising a pivotally mounted inertia member, and

resilient means normally maintaining the shutter in position to permit image transmission but yieldable to allow movement of the member to block image transmission when the panning of the camera takes place at a changing rate of movement.

8. The combination with a camera having a lens and a light-sensitive surface, of means interposed between the lens and surface for normally allowing image transmission from the lens to the surface and movable to an image blocking position in response to panning of the camera at a changing rate of movement, said means comprising a pivotally mounted inertia operated shutter provided with an opening at the mid-area thereof for normally allowing said image transmission, and provided also with image blocking surfaces at either side of said opening, said shutter moving in response to panning movement of the camera at said changing rate of movement to bring one or the other of said blocking surfaces in position to block image transmission.

THORNTON W. CHEW.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 919,324 Crosier Apr. 27, 1909 1,824,469 Dyche Sept. 22, 1931 2,133,882 Zworykin Oct. 18, 1938 2,176,515 Wellman Oct. 17, 1939 2,315,406 Eddy Mar. 30, 1943 2,335,436 Morgan et al Nov. 30, 1943 2,381,902 Goldsmith Aug. 14, 1945 2,402,444 Pooh June 18, 1946 FOREIGN PATENTS Number Country Date 630,488 France Aug. 23, 1927 

